Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions

Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs.

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Autores principales: Diego I. Cattoni, Andrés M. Cardozo Gizzi, Mariya Georgieva, Marco Di Stefano, Alessandro Valeri, Delphine Chamousset, Christophe Houbron, Stephanie Déjardin, Jean-Bernard Fiche, Inma González, Jia-Ming Chang, Thomas Sexton, Marc A. Marti-Renom, Frédéric Bantignies, Giacomo Cavalli, Marcelo Nollmann
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Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/e60cd11935584fd2817e693003fc822f
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spelling oai:doaj.org-article:e60cd11935584fd2817e693003fc822f2021-12-02T16:51:52ZSingle-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions10.1038/s41467-017-01962-x2041-1723https://doaj.org/article/e60cd11935584fd2817e693003fc822f2017-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-01962-xhttps://doaj.org/toc/2041-1723Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs.Diego I. CattoniAndrés M. Cardozo GizziMariya GeorgievaMarco Di StefanoAlessandro ValeriDelphine ChamoussetChristophe HoubronStephanie DéjardinJean-Bernard FicheInma GonzálezJia-Ming ChangThomas SextonMarc A. Marti-RenomFrédéric BantigniesGiacomo CavalliMarcelo NollmannNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-10 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Diego I. Cattoni
Andrés M. Cardozo Gizzi
Mariya Georgieva
Marco Di Stefano
Alessandro Valeri
Delphine Chamousset
Christophe Houbron
Stephanie Déjardin
Jean-Bernard Fiche
Inma González
Jia-Ming Chang
Thomas Sexton
Marc A. Marti-Renom
Frédéric Bantignies
Giacomo Cavalli
Marcelo Nollmann
Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
description Eukaryotic genomes are partitioned into self-interacting modules or topologically associated domains (TADs) that exist at the kilo-megabase scale. Here Cattoni et al. combine super-resolution microscopy with DNA-labeling methods to quantify absolute frequencies of interactions within TADs.
format article
author Diego I. Cattoni
Andrés M. Cardozo Gizzi
Mariya Georgieva
Marco Di Stefano
Alessandro Valeri
Delphine Chamousset
Christophe Houbron
Stephanie Déjardin
Jean-Bernard Fiche
Inma González
Jia-Ming Chang
Thomas Sexton
Marc A. Marti-Renom
Frédéric Bantignies
Giacomo Cavalli
Marcelo Nollmann
author_facet Diego I. Cattoni
Andrés M. Cardozo Gizzi
Mariya Georgieva
Marco Di Stefano
Alessandro Valeri
Delphine Chamousset
Christophe Houbron
Stephanie Déjardin
Jean-Bernard Fiche
Inma González
Jia-Ming Chang
Thomas Sexton
Marc A. Marti-Renom
Frédéric Bantignies
Giacomo Cavalli
Marcelo Nollmann
author_sort Diego I. Cattoni
title Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
title_short Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
title_full Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
title_fullStr Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
title_full_unstemmed Single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
title_sort single-cell absolute contact probability detection reveals chromosomes are organized by multiple low-frequency yet specific interactions
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/e60cd11935584fd2817e693003fc822f
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